DE20302765U1 - Small-scale sequencing batch reactor for waste water treatment is delivered as assembled unit with single air line from external compressor - Google Patents

Abstract

A small-scale waste water treatment reactor has a series of chambers with an effluent water inlet to the first and a clear water outlet from the last chamber. The assembly has compressed air-driven pumps, air supply lines driving liquid transfers, plus stop- and switch-valves linked to an external computer and compressor. The air compressor preferably. has a single supply line to the assembly. The assembly is a sequencing batch reactor in which all the internal air lines are connected to the single incoming compressed air line (11). The valves (6) are controlled mechanically, electrically or pneumatically. All compressed air driven units e.g. mammoth pump (7) or pneumatic selector valves (6) are connected to the single incoming air line (11). The valves (6) are located in the immediate vicinity of the respective user points. The unit (1) also incorporates a pressure reservoir.

Description

Frank Wißmann .·* '· *'''·.''I I. I W15/1

Königsberger Str. 11
D-32457 Porta Westfalica

Small sewage treatment plant

The invention relates to a small sewage treatment plant according to the preamble of the main claim.

Small sewage treatment plants with three adjacent chambers are known, which are operated using an SBR sequence batch reactor process, which are particularly suitable for decentralized wastewater treatment in rural areas where no sewer connection is available or cannot be established. In such known small sewage treatment plants, mammoth pumps operated with compressed air are used as pumps, which are supplied with compressed air from an external air compressor via switching valves and connected air supply lines, whereby the switching valves are connected via control lines to an external process computer, which takes over the process control.

Mammoth pumps are used, for example, for filling, emptying or partially emptying chambers, for removing sludge or clarified water from the clarification tank, for aerating one or more clarification tanks or for measuring water levels.

Frank Wißmann .'I I' I I .* *: I. I W15/1

Known small sewage treatment plants equipped with mammoth pumps have a design in which each mammoth pump is supplied with compressed air via a separate hose, so that several separate hoses have to be led to an external air compressor, with the switching valves also being located outside the sewage tank in the area of the air compressor, so that there are considerable disadvantages for the manufacture and assembly of such a small sewage treatment plant, which include, for example, the additional costs for the various hoses and the additional effort involved in laying several hoses. Furthermore, the use of several hoses increases the risk of leaks and the associated risk of the entire small sewage treatment plant failing.

Due to the large number of existing air supply lines, it is also possible that the function of the small sewage treatment plant depends on the day's form of a craftsman during installation, since errors in the connection assignment are possible, which can hinder the operation of a small sewage treatment plant for several days or weeks until the biological treatment stage has reached its full performance again after a failure.

The object of the invention is to provide a small sewage treatment plant that is simple and economical to manufacture and install and that ensures long-term safe operation. 25

The solution to this problem is achieved according to the invention in conjunction with the generic features by means of the technical teaching specified in the characterizing part of the main claim.

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Frank Wissmann. ·. ·..·*· · ·* * * &idigr;· &Idigr; W15/1

Because a single air supply line is led from the air compressor to the clarification tank and the switching valves are arranged on or in the clarification tank and connected to this air supply line, a great deal of assembly work is no longer necessary, particularly when laying several air supply lines, and the air pressure generated by the compressor is now applied directly to the individual valves in the clarification tank, so that the individual consumers can be operated directly by switching the corresponding valve on or off.

The inventive small sewage treatment plant therefore makes it possible to supply sewage systems with several different air consumers via just a single supply air line in a very simple and cost-effective manner.

Overall, the following advantages can be listed: low costs for the hoses to be laid; simple hose laying; the use of only one air supply line reduces the risk of leaks and the associated risk of failure of the entire treatment system; simple installation on site; avoidance of errors in the connection assignment of the hoses on site, as incorrect switching is no longer possible and, finally, the reduction in size and weight of the control and supply cabinet located outside the treatment tank due to the switching valves mounted in or on the treatment tank.

The invention allows considerable savings in material with significantly reduced assembly effort, improved operational reliability and increased ease of maintenance.

FrankWißmann

Furthermore, not only new small sewage treatment plants can be equipped with the present invention, but also existing small sewage treatment plants can be retrofitted with it.
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Further advantageous embodiments of the subject matter of the invention result from and in combination with the following subclaims.

The switching valves used can be controlled mechanically, magnetically, electrically or pneumatically, which further increases the variability of the system.

According to a particularly preferred embodiment of the invention, all consumers arranged on or in the clarification tank and operated with air pressure, such as the mammoth pumps or pneumatic switching valves, are arranged on the individual air supply line, so that only electrical control lines from the process computer to the individual consumers are required.
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According to another particularly preferred embodiment of the subject matter of the invention, the switching valves are arranged within the clarification tank in the immediate vicinity of the respective consumers, in this case in the area of or directly on the mammoth pumps, whereby a common holder of the switching valves can be arranged on or on the upper front wall of a partition wall of the clarification tank, which are then advantageously accessible for maintenance purposes from a lid of the clarification tank arranged above it.

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FrankWißmann .:..·..* ·..·.:!.' ^: .. ^: \. ^: Wl 5/1

It can also be advantageous if a pressure accumulator is arranged on or inside the clarification tank so that the connected air compressor only needs to be put into operation temporarily to fill up the operating pressure.

It is also conceivable and advantageous that other air pressure-operated regulating, control and/or monitoring devices are connected to the individual air supply line in addition to the pressure storage or buffer tank, so that the overall structure, which can be prefabricated industrially, is further simplified so that no assembly errors can occur when assembling the small sewage treatment plant on site.

An embodiment of the invention is described in more detail below with reference to the drawings. They show:

Fig. 1 is a sketch of a plan view of a 3-chamber septic tank and

Fig. 2 is a partially sectioned side view through a clarification tank according to Fig. 1.

The small sewage treatment plant consists of a sewage tank 1 with a first chamber 2, a second chamber 14 and a third or last chamber 5, which are separated from each other by partition walls 15, as well as an inlet 3 and a cold water outlet 4 with a mammoth pump 7 and two further mammoth pumps 7 for transferring the

Frank Wißmann .:.\ \. ⁵ *\. ^: .·]. '''..';[' WI5/1

sewage water. Furthermore, a ventilation 13 is provided in the last chamber 5, which, like the mammoth pumps 7, is also supplied with compressed air via switching valves 6 and a common air supply line 11 via an air compressor 10, whereby the switching valves 6 are controlled by a process computer 9 via a control line 8.

The switching valves 6 are arranged on or on the intermediate wall 15 of the clarification tank 1 below a cover 12 of the clarification tank 1 and are accessible for maintenance purposes.

Claims (6)

1. Small sewage treatment plant consisting of one or more sewage tanks with several adjacent separate chambers, in particular a small sewage treatment plant operated according to the SBR sequence batch reactor process, with a waste water supply line into a first chamber and a clear water outlet from a last chamber as well as mammoth pumps operated with compressed air, air supply lines for pumping the water around with switching valves connected in between with control lines to an external process computer and with an external air compressor, characterized in that a single air supply line ( 11 ) is led from the air compressor ( 10 ) to the sewage tank ( 1 ) and that several switching valves ( 6 ) arranged on or in the sewage tank ( 1 ) are connected to this air supply line ( 11 ). 2. Small sewage treatment plant according to claim 1, characterized in that the switching valves ( 6 ) are controlled mechanically, electrically or pneumatically. 3. Small sewage treatment plant according to one of the preceding claims, characterized in that all consumers arranged therein and/or thereon and operated with air pressure, such as the mammoth pumps ( 7 ) or pneumatic switching valves ( 6 ), are connected to the individual air supply line ( 11 ). 4. Small sewage treatment plant according to one of the preceding claims, characterized in that the switching valves ( 6 ) are arranged within the sewage tank ( 1 ) in the immediate vicinity of the respective consumers, such as the mammoth pumps ( 7 ). 5. Small sewage treatment plant according to one of the preceding claims, characterized in that a pressure accumulator is arranged on or in the sewage tank ( 1 ). 6. Small sewage treatment plant according to one of the preceding claims, characterized in that further devices are connected to the individual air supply line ( 11 ), such as a pressure storage or buffer tank and/or compressed air-operated regulating, control and/or monitoring devices.